NUMBER SYSTEMS INTRODUCTION WHAT WILL WE LEARN TODAY
NUMBER SYSTEMS INTRODUCTION
WHAT WILL WE LEARN TODAY? Number Line Types of number Trick of the session
NUMBER LINE Negative numbers Positive numbers ----|----|----|----|----|----|----|----|----|---…-8 -7 -6 -5 -4 -3 -2 -1 0 1 2 3 4 5 6 7 8. . .
TYPES OF NUMBER Natural Number : Denoted by N Generally the numbers we count are called natural numbers(N). Example : 1, 2, 3, 4 …. Whole Number : Denoted by W Put one more number i. e. 0(Zero) together with natural number and it forms whole number. Example : 0, 11, 12… 20, 21, 22…. 30, 40 …. Integers : Denoted by Z Put all the negative numbers along with whole numbers and it forms Integers. Example : …-4, -3, -2, -1, 0, 1, 2, 3, 4….
RATIONAL NUMBERS: Numbers of the form terminating or non terminating recuring numbers. eg: 3. 333…, 5. 28787…, 9/4 etc. IRRATIONAL NUMBERS: The numbers which are non terminating and non recuring. eg: 2 = 1. 4142135623… etc.
THE DECIMAL EXPANSION OF RATIONAL NUMBERS IS EITHER TERMINATING OR NON- TERMINATING AND REPETITIVE. Whenever we divide 2 by 7, we get 0. 285714……… Here, the group 285714 is repeated. Therefore, we can write Here, means that the group of digits 285714 is repeating or recurring
For irrational numbers, the decimal expansion is nonterminating nonrepetitive.
LET US CONSIDER SOME THEIR DECIMAL FORMS. FRACTIONS AND = 6. 5 = 0. 9 = 0. 54 = 0. 593 = 0. 00243
EXERCISE 1. 1 1. Is zero a rational number? Can you write it in the form p/q, where p and q are integers and q 0. Ans: Yes, zero is a rational number. 0= 0/1, 0/2, 0/3 etc. 2. Find six rational numbers between 3 and 4? Ans: Denominator = 6+1=7 3= 21/7 4=28/7 So, 6 rational numbers between 21/7 and 28/7 are: 22/7, 23/7, 24/7, 25/7, 26/7, 27/7 3. Find five rational numbers 3/5 and 4/5? Ans: Denominator = 5+1=6 3/5=18/30 4/5=24/30 The five rational numbers between 18/30 and 24/30 = 19/30, 20/30, 21/30, 22/30, 23/30.
4. State whether the following statements are true or false. Give reasons for your answers. i. Every natural number is a whole number. Ans: True, since the collection of whole numbers contains all natural numbers. ii. Every integer is a whole number. Ans: False, for example -2 is not a whole number iii. Every rational number is a whole number. Ans: False, for example ½ is a rational number but not a whole number.
EXERCISE 1. 2 State whether the following statements are true or false. Justify your answers. i. Every irrational number is a real number. Ans: True, since collection of real numbers is made up of rational and irrational numbers. ii. Every point on the number line is of the form m , where m is a natural number. Ans: False, no negative number can be the square root of any natural number. iii. Every real number is an irrational number. Ans: False, for example 2 is real but not irrational. 1.
EXERCISE 1. 3 Write the following in decimal form and say what kind of decimal expansion each has: i. 36/100 Ans: 36/100 = 0. 36. It is terminating ii. 1/11 Ans: 1/11 = 0. 09 It is non terminating and recurring number. iii. 4 1/8 = 33/8 Ans: 4 1/8 = 33/8 = 4. 125. It is terminating. iv. 3/13 Ans: 3/13 = 0. 230769. It is non terminating and recurring v. 2/11 Ans: 2/11=0. 1818. It is non terminating and recurring number. vi. 329/400 Ans: 329/400=0. 8225. It is terminating 1.
2. You know that 1/7=0. 142857. Can you predict what the decimal expansion of 2/7, 3/7, 4/7, 5/7, 6/7 are, without actually doing long division? If so, how? Ans: 1/7=0. 142857 2/7=2 1/7= 0. 285714 3/7=3 1/7= 0. 428571 4/7=4 1/7= 0. 571428 5/7=5 1/7= 0. 714285 6/7=6 1/7= 0. 857142 3. Express the following in the form p/q , where p and q are integers and q 0. i. O. 6 Ans: Let x=0. 666… 10 x=6. 666… =6+0. 666… =6+x 10 x-x=6 x= 6/9=2/3
7. Write three numbers whose decimal expansions are non- terminating nonrecuring. Ans: 0. 0100100001… , 0. 20200200002… , 0. 00300003000003… 8. Find three different irrational numbers between the rational numbers 5/7 and 9/11. Ans: 5/7=0. 714285 9/11=0. 81 Three irrational numbers = 0. 75234684756… , 0. 773492039442… , 0. 804571208325456… 9. Classify the following numbers as rational or irrational : i. 23 Ans: Irrational number. ii. 225 Ans: Rational number iii. 0. 3796 Ans: Rational number iv. 7. 478478… Ans: Rational number v. 1. 10100100001000001… Ans: Irrational number
EXERCISE: 1. 5 Classify the following numbers as rational or irrational. i. 2 - 5 Ans: Irrational ii. (3+ 23)- 23 Ans: Rational iii. 2 7/ 7 7 Ans: Rational iv. 1/ 2 Ans: Irrational v. 2 Ans: Irrational 1.
SUMMARY A number r is called a rational number, if it can be written in the form p/q, where p and q are integers and q is not equal to 0. A number s is called a irrational number, if it cannot be written in the form p/q, where p and q are integers and q is not equal to 0. The decimal expansion of a rational number is either terminating or non-terminating non-recurring. Moreover, a number whose decimal expansion is terminating or non-terminating recurring is a rational. The decimal expansion of an irrational number is non-terminating non-recurring. Moreover, a number whose decimal expansion is nonterminating non-recurring is irrational. All the rational and irrational numbers make up the collection of real numbers. There is a unique real number corresponding to every point on the number line. Also, corresponding to each real number, there is a unique point on the number line. If r is rational and s is irrational, then r+s and r-s are irrational numbers , and rs and r/s are irrational numbers, r is not equal to 0.
TRICK OF THE SESSION Finding square root of a number ending with 25. For last two numbers put a 5 and represent other part of the number as k*(k+1) and the square root is k 5. Example : find square root of 2025 4*5 4 So 5 square root of 2025 is 25.
3. 7 ORDER OF OPERATIONS; ESTIMATION a. Simplify expressions using the rules for order of operations. b. Estimate with fractions and mixed-numeral notation.
RULES FOR ORDER OF OPERATIONS PEDMAS 1. 2. 3. 4. Do all calculations within parentheses before operations outside. Evaluate all exponential expressions. Do all multiplications and divisions in order from left to right. Do all additions and subtractions in order from left to right.
HELPFUL HINTS Change all mixed numbers to improper fractions first. (Unless they are being added or subtracted. ) Change all divisions to multiplications before you start calculating. Write each step on a separate line, and copy the parts that do not change at each step. Write the auxiliary calculations on the right side, so the don’t interrupt the flow of the argument.
EXAMPLE Simplify:
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